Effects of photobioreactor configuration, nitrogen source and light intensity on the fed-batch cultivation of Arthrospira (Spirulina) platensis. Bioenergetic aspects
Bioenergetic analysis may be applied in order to predict microbial growth yields, based on the Gibbs energy dissipation and mass conservation principles of the overall growth reaction. The bioenergetics of the photoautotrophic growth of the cyanobacterium Arthrospira (Spirulina) platensis was invest...
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| Published in: | Biomass & bioenergy Vol. 37; pp. 309 - 317 |
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| Abstract | Bioenergetic analysis may be applied in order to predict microbial growth yields, based on the Gibbs energy dissipation and mass conservation principles of the overall growth reaction. The bioenergetics of the photoautotrophic growth of the cyanobacterium Arthrospira (Spirulina) platensis was investigated in different bioreactor configurations (tubular photobioreactor and open ponds) using different nitrogen sources (nitrate and urea) and under different light intensity conditions to determine the best growing conditions in terms of Gibbs energy dissipation, number of photons to sustain cell growth and phototrophic energy yields distribution in relation to the ATP and NADPH formation, and release of heat. Although an increase in the light intensity increased the Gibbs energy dissipated for cell growth and maintenance with both nitrogen sources, it did not exert any appreciable influence on the moles of photons absorbed by the system to produce one C-mol biomass. On the other hand, both bioenergetic parameters were higher in cultures with nitrate than with urea, likely because of the higher energy requirements needed to reduce the former nitrogen source to ammonia. They appreciably increased also when open ponds were substituted by the tubular photobioreactor, where a more efficient light distribution ensured a remarkably higher cell mass concentration. The estimated percentages of the energy absorbed by the cell showed that, compared with nitrate, the use of urea as nitrogen source allowed the system to address higher energy fractions to ATP production and light fixation by the photosynthetic apparatus, as well as a lower fraction released as heat. The best energy yields values on Gibbs energy necessary for cell growth and maintenance were achieved in up to 4–5 days of cultivation, indicating that it would be the optimum range to maintain cell growth. Thanks to this better bioenergetic situation, urea appears to be a quite promising low-cost, alternative nitrogen source for Arthrospira platensis cultures in photobioreactors.
► Bioenergetics of the Arthrospira platensis photoautotrophic growth are evaluated. ► Growth in tubular photobioreactor leads to higher O2 production than in open pounds. ► Urea provides higher energetic yields than nitrate. ► Urea is a promising low-cost nitrogen source for A. platensis cultures. |
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| AbstractList | Bioenergetic analysis may be applied in order to predict microbial growth yields, based on the Gibbs energy dissipation and mass conservation principles of the overall growth reaction. The bioenergetics of the photoautotrophic growth of the cyanobacterium Arthrospira (Spirulina) platensis was investigated in different bioreactor configurations (tubular photobioreactor and open ponds) using different nitrogen sources (nitrate and urea) and under different light intensity conditions to determine the best growing conditions in terms of Gibbs energy dissipation, number of photons to sustain cell growth and phototrophic energy yields distribution in relation to the ATP and NADPH formation, and release of heat. Although an increase in the light intensity increased the Gibbs energy dissipated for cell growth and maintenance with both nitrogen sources, it did not exert any appreciable influence on the moles of photons absorbed by the system to produce one C-mol biomass. On the other hand, both bioenergetic parameters were higher in cultures with nitrate than with urea, likely because of the higher energy requirements needed to reduce the former nitrogen source to ammonia. They appreciably increased also when open ponds were substituted by the tubular photobioreactor, where a more efficient light distribution ensured a remarkably higher cell mass concentration. The estimated percentages of the energy absorbed by the cell showed that, compared with nitrate, the use of urea as nitrogen source allowed the system to address higher energy fractions to ATP production and light fixation by the photosynthetic apparatus, as well as a lower fraction released as heat. The best energy yields values on Gibbs energy necessary for cell growth and maintenance were achieved in up to 4-5 days of cultivation, indicating that it would be the optimum range to maintain cell growth. Thanks to this better bioenergetic situation, urea appears to be a quite promising low-cost, alternative nitrogen source for Arthrospira platensis cultures in photobioreactors. Bioenergetic analysis may be applied in order to predict microbial growth yields, based on the Gibbs energy dissipation and mass conservation principles of the overall growth reaction. The bioenergetics of the photoautotrophic growth of the cyanobacterium Arthrospira (Spirulina) platensis was investigated in different bioreactor configurations (tubular photobioreactor and open ponds) using different nitrogen sources (nitrate and urea) and under different light intensity conditions to determine the best growing conditions in terms of Gibbs energy dissipation, number of photons to sustain cell growth and phototrophic energy yields distribution in relation to the ATP and NADPH formation, and release of heat. Although an increase in the light intensity increased the Gibbs energy dissipated for cell growth and maintenance with both nitrogen sources, it did not exert any appreciable influence on the moles of photons absorbed by the system to produce one C-mol biomass. On the other hand, both bioenergetic parameters were higher in cultures with nitrate than with urea, likely because of the higher energy requirements needed to reduce the former nitrogen source to ammonia. They appreciably increased also when open ponds were substituted by the tubular photobioreactor, where a more efficient light distribution ensured a remarkably higher cell mass concentration. The estimated percentages of the energy absorbed by the cell showed that, compared with nitrate, the use of urea as nitrogen source allowed the system to address higher energy fractions to ATP production and light fixation by the photosynthetic apparatus, as well as a lower fraction released as heat. The best energy yields values on Gibbs energy necessary for cell growth and maintenance were achieved in up to 4–5 days of cultivation, indicating that it would be the optimum range to maintain cell growth. Thanks to this better bioenergetic situation, urea appears to be a quite promising low-cost, alternative nitrogen source for Arthrospira platensis cultures in photobioreactors. ► Bioenergetics of the Arthrospira platensis photoautotrophic growth are evaluated. ► Growth in tubular photobioreactor leads to higher O2 production than in open pounds. ► Urea provides higher energetic yields than nitrate. ► Urea is a promising low-cost nitrogen source for A. platensis cultures. |
| Author | Converti, Attilio Sato, Sunao Carvalho, João Carlos Monteiro de Perego, Patrizia Bezerra, Raquel Pedrosa Matsudo, Marcelo Chuei |
| Author_xml | – sequence: 1 givenname: Raquel Pedrosa surname: Bezerra fullname: Bezerra, Raquel Pedrosa organization: Department of Biochemical and Pharmaceutical Technology, Faculty of Pharmaceutical Sciences, University of São Paulo, Av. Prof. Lineu Prestes 580, Bl. 16, 05508-900 São Paulo-SP, Brazil – sequence: 2 givenname: Marcelo Chuei surname: Matsudo fullname: Matsudo, Marcelo Chuei organization: Department of Biochemical and Pharmaceutical Technology, Faculty of Pharmaceutical Sciences, University of São Paulo, Av. Prof. Lineu Prestes 580, Bl. 16, 05508-900 São Paulo-SP, Brazil – sequence: 3 givenname: Sunao surname: Sato fullname: Sato, Sunao organization: Department of Biochemical and Pharmaceutical Technology, Faculty of Pharmaceutical Sciences, University of São Paulo, Av. Prof. Lineu Prestes 580, Bl. 16, 05508-900 São Paulo-SP, Brazil – sequence: 4 givenname: Patrizia surname: Perego fullname: Perego, Patrizia organization: Department of Chemical and Process Engineering “G.B. Bonino”, University of Genoa, via Opera Pia 15, 16145 Genoa, Italy – sequence: 5 givenname: Attilio surname: Converti fullname: Converti, Attilio organization: Department of Chemical and Process Engineering “G.B. Bonino”, University of Genoa, via Opera Pia 15, 16145 Genoa, Italy – sequence: 6 givenname: João Carlos Monteiro de surname: Carvalho fullname: Carvalho, João Carlos Monteiro de email: jcmdcarv@usp.br organization: Department of Biochemical and Pharmaceutical Technology, Faculty of Pharmaceutical Sciences, University of São Paulo, Av. Prof. Lineu Prestes 580, Bl. 16, 05508-900 São Paulo-SP, Brazil |
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| Keywords | Light intensity Nitrogen source Bioenergetics Bioreactor configuration Arthrospira (Spirulina) platensis Microorganism growth Nitrates Biomass Luminous intensity Urea Photobioreactor Cyanobacteria Spirulina platensis Bacteria Kinetics Food |
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| SubjectTerms | adenosine triphosphate ammonia Arthrospira Arthrospira (Spirulina) platensis Arthrospira platensis Bioenergetics Biological and medical sciences biomass Bioreactor configuration Bioreactors Biotechnology cell growth Cyanobacteria energy energy metabolism energy requirements Fundamental and applied biological sciences. Psychology heat Light intensity Methods. Procedures. Technologies microbial growth NADP (coenzyme) nitrogen Nitrogen source ponds Spirulina platensis urea urea nitrogen Various methods and equipments |
| Title | Effects of photobioreactor configuration, nitrogen source and light intensity on the fed-batch cultivation of Arthrospira (Spirulina) platensis. Bioenergetic aspects |
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